What is the most energy intensive material on the list? Which material has the greatest proportion of energy saved when recycled? What is the embedded process energy in the packaging for Batter Blaster pancake batter as compared to the energy value of the food product it contains?

HW #5

Embedded Energy Content of Materials

Objectives: To research the total process energy consumed in producing various engineering materials

(ie, a Life Cycle Analysis, LCA) and distill information into a concise summary in memo form. To

apply the material process energy content to a consumer package and compare the package process

energy to the food energy of the contents.

Tasks:

1. Download or otherwise view the “Model Introduction Report for Development and Applications of

GREET 2.7,” (GREET.27Manual) especially Section 5, Materials, available on Canvas or at

http://greet.es.anl.gov/

2. Review data for process energy consumption of different materials listed; in particular Steel,

Aluminum, Copper, Zinc, Magnesium, Lead, Nickel, Glass, Polypropylene, PET (polyester),

Polyethylene, Carbon fiber, glass fiber, Styrene/Butadiene Rubber. Collect data to make a table of

process energy values. Be sure to report source where you found the data (reference page number of

report or other website URL). Be sure to also note the recycled material process energy content where

available. Note: Steel and aluminum values are easier to find in the Aluminum Intensive Vehicle Study

(section 2.1) than summarizing the detailed information in the materials section. Form a table of

information with columns for 1) Material, 2) Virgin Material Energy Content, 3) Recycled Material

Energy Content, and 4) Recycled Mat’l Energy Ratio (ie recycled material / virgin material process

energy). Report data in consistent units (such as Million BTU/ton = MMBTU/ton).

3. Using info on steel and polyethylene, determine the process energy consumed to produce the

packaging (Steel 192 g, Polyethylene 6 gram, vs 13 servings @ 80 Cal food energy content) for Batter

Blaster pancakes. http://www.batterblaster.com/

Write a 1 page memo (date, from, to, title and body) as if the addressee (the instructor) is an executive

that needs the summary data to include in a larger presentation. Summarize key points and answering

the following questions for in a narrative form:

What is the most energy intensive material on the list?

Which material has the greatest proportion of energy saved when recycled?

What is the embedded process energy in the packaging for Batter Blaster pancake batter as

compared to the energy value of the food product it contains?

Attach the table of data on the page following the memo. Remember to label the table and be sure to

reference the data sources for the table so that a reviewer can find the data source.

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